Internal-combustion engines – Igniters
Patent
1989-08-04
1990-11-27
Argenbright, Tony M.
Internal-combustion engines
Igniters
123145A, 123169EL, 123670, 313118, F02B 5102, F02P 2302
Patent
active
049728113
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The invention relates to an ignition system, such as glow plugs, spark plugs or glow attachments. On their surface exposed to the fuel/air mixture, these ignition systems normally have a ceramic layer usually of alumina or metal. Usually, no particular attention is paid to the mechanism of the combustion, and the ignition temperatures are relatively high. However, the higher the ignition temperature, the shorter is the service life of the ignition systems. In addition, the higher the ignition temperature of the fuel/air mixture, the more difficult it is to obtain an exhaust gas which is as low in pollutants as possible.
SUMMARY OF THE INVENTION
The object of the invention is to provide an ignition system comprising a glow plug or the like and having an ignition temperature up to 100.degree. C. below the ignition temperature which can be achieved with a conventional ignition device. The object of the invention is achieved by providing an ignition system comprising a glow plug or the like wherein a ceramic or metal surface of the glow plug exposed to a fuel/air mixture has a coating thereon including substances which catalyze the cracking process of hydrocarbons contained in a fuel.
Ignition systems are heated at exposed points by spark formation or heating to such an extent that the fuel/air mixture surrounding them burns more or less suddenly, for example in spark-ignition engines or diesel engines. In order to achieve the lowest ignition temperature possible, the primary ignition step must be accelerated which, in the case of hydrocarbons which are the main constituents of such fuels, consists in cracking of the hydrocarbons. The very greatly accelerated oxidation of the hydrocarbons, taking place in the form of an explosion, proceeds only afterwards due to free radicals formed as a results of the cracking process. It has now been found that the acceleration of this process of hydrocarbons can be achieved with catalysts which have the strongest possible Coulomb fields on their surface, withstand high temperatures of up to about 1,300.degree. C., and are sufficiently active under operating conditions of a gasoline or diesel engine. The catalysts must therefore consist of inorganic substances with predominantly ionically bound lattice elements. This means that covalent bonding forces and/or an easy change of valency, tantamount to an easy exchangeability of p-, d- or f-electrons with the hydrocarbons and oxygen, should be reduced in these substances to the extent required.
It is particularly advantageous when the catalytic coating consists of a modified alumina which also contains silica, yttrium oxide, lanthanum oxide or cerium oxide as well as at least one further oxide from the group comprising the alkali metals or alkaline earth metals and furthermore, if appropriate, also at least one oxide of a d-transition metal, above all chromium oxide and/or nickel oxide.
In addition to the strongest possible Coulomb fields, already mentioned above, the materials used for the catalytic coating must withstand high temperatures of up to about 1,300.degree. C. and have a sufficient activity under the operating conditions of a gasoline engine or diesel engine. They must therefore consist of inorganic substances with predominantly ionically bound lattice elements, as is the case for the abovementioned substances. Covalent bonding forces and/or an easy change of valency, that is to say an easy exchangeability of p-, d- or felectrons with the hydrocarbons and oxygen, are probably reduced in these substances to the extent required. When d-metal oxides which, taken by themselves, represent oxidation catalysts, are added to the oxides of Al, Si, Y, La and Ce as base oxides, a reaction with a second d-metal oxide or another metal oxide can form new compounds, for example spinels, perowskites, pyrochlores or other complex metal oxides, which form catalytically oxidation inactive bonds and which likewise affect the combustion mechanism in such a way that the ignition temperature is reduced. Thes
REFERENCES:
patent: 3923011 (1975-12-01), Pfefferle
patent: 4092967 (1978-06-01), Haslett
patent: 4389983 (1983-06-01), Enga et al.
patent: 4393830 (1983-07-01), Bodine
patent: 4530340 (1985-07-01), Totman
Baresel Detlef
Huth Gerhard
Kling Anton
Argenbright Tony M.
Robert & Bosch GmbH
Striker Michael J.
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